Biosynthesis of flavone C-glucosides in engineered Escherichia coli.

Abstract

Two plant-originated C-glucosyltransferases (CGTs) UGT708D1 from Glycine max and GtUF6CGT1 from Gentiana triflora were accessed for glucosylation of selected flavones chrysin and luteolin. Uridine diphosphate (UDP)-glucose pool was enhanced in Escherichia coli cell cytosol by introducing heterologous UDP-glucose biosynthetic genes, i.e., glucokinase (glk), phosphoglucomutase (pgm2), and glucose 1-phosphate uridylyltransferase (galU), along with glucose facilitator diffusion protein from (glf) from different organisms, in a multi-monocistronic vector with individual T7 promoter, ribosome binding site, and terminator for each gene. The C-glucosylated products were analyzed by high-performance liquid chromatography-photodiode array, high-resolution quadruple time-of-flight electrospray ionization mass spectrometry, and one-dimensional nuclear magnetic resonance analyses. Fed-batch shake flask culture showed 8% (7mg/L; 16μM) and 11% (9mg/L; 22μM) conversion of chrysin to chrysin 6-C-β-D-glucoside with UGT708D1 and GtUF6CGT1, respectively. Moreover, the bioengineered E. coli strains with exogenous UDP-glucose biosynthetic genes and glucose facilitator diffusion protein enhanced the production of chrysin 6-C-β-D-glucoside by approximately 1.4-fold, thus producing 10mg/L (12%, 24μM) and 14mg/L (17%, 34μM) by UGT708D1 and GtUF6CGT1, respectively, without supplementation of additional UDP-glucose in the medium. The biotransformation was further elevated when the bioengineered strain was scaled up in lab-scale fermentor at 3L volume. HPLC analysis of fermentation broth extract revealed 50% (42mg/L, 100μM) conversion of chrysin to chrysin 6-C-β-D-glucoside at 48h upon supplementation of 200μM of chrysin. The maximum conversion of luteolin was 38% (34mg/L, 76μM) in 50-mL shake flask fermentation at 48h. C-glucosylated derivative of chrysin was found to be more soluble and more stable to high temperature, different pH range, and β-glucosidase enzyme, than O-glucosylated derivative of chrysin.